Abstract
This study analysed cytogenetic events occurring in the syncytial endosperm of the Avena magna H. C. Murphy & Terrell × Avena longiglumis Durieu amphiploid, which is a product of two wild species having different genomes. Selection through the elimination of chromosomes and their fragments, including those translocated, decreased the level of ploidy in the endosperm below the expected 3n, leading to the modal number close to 2n. During intergenomic translocations, fragments of the heterochromatin-rich C-genome were transferred to the D and Al genomes. Terminal and non-reciprocal exchanges dominated, whereas other types of translocations, including microexchanges, were less common. Using two probes and by counterstaining with DAPI, the A. longiglumis and the rare exchanges between the D and Al genomes were detected by GISH. The large discontinuity in the probe labelling in the C chromosomes demonstrated inequality in the distribution of repetitive sequences along the chromosome and probable intragenomic rearrangements. In the nucleus, the spatial arrangement of genomes was non-random and showed a sectorial-concentric pattern, which can vary during the cell cycle, especially in the less stable tissue like the hybrid endosperm.
Highlights
Endosperm, which is the storage tissue of grass caryopsis, plays an important role in human nutrition, and should be thoroughly analysed
The hyperploid metaphases occurred at a low frequency in the amphiploid and A. longiglumis, but they were not observed in Avena magna
The chromosomal bridges in anaphases (Fig. 1b, f) and telophases support the conclusion that the BFB cycle can occur in the free-nuclear syncytium
Summary
Endosperm, which is the storage tissue of grass caryopsis, plays an important role in human nutrition, and should be thoroughly analysed. Many grass species, including cereals, have evolved through the processes of hybridisation and polyploidisation (Grant 1981). The low level of telomerase activity in the endosperm, which was first observed in barley and maize, has been found to affect the stability of telomeres and result in cytogenetic aberrations (Kilian et al 1998). In the young pistils of Arabidopsis Heynh., shortened telomeres were shown to induce the breakage/fusion/bridge (BFB) cycle (Siroky et al 2003). Such cytogenetic behaviour was observed in human cancer cells presenting of telomere instability (Lo et al 2002)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
